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Originally posted by Magic Spazm:

Originally posted by Barney Calhoun -HL:BS-:

Reminds me of how good gmod can be without thousands of Minecraft sex mods.

Fixed.

bruh since when gmod has thousand of minecraft sex mods? i thought undertale and fnaf were in the big picture here

idk Anomalocaris (from Ancient Greek ανώμαλος, meaning "unlike", and καρίς, meaning "shrimp", with the intended meaning "unlike other shrimp") is an extinct genus of radiodont, an order of early-diverging stem-group marine arthropods. It is best known from the type species A. canadensis, found in the Stephen Formation (particularly the Burgess Shale) of British Columbia, Canada. The other named species A. daleyae is known from the somewhat older Emu Bay Shale of Australia.[2] Other unnamed Anomalocaris species are known from China and the United States.[3]

Like other radiodonts, Anomalocaris had swimming flaps running along its body, large compound eyes, and a single pair of segmented, frontal appendages, which in Anomalocaris were used to grasp prey. Estimated to reach 34.2–37.8 cm (13.5–14.9 in) long excluding the frontal appendages and tail fan,[4] Anomalocaris is one of the largest animals of the Cambrian, and thought to be one of the earliest examples of an apex predator,[5][6] though others have been found in older Cambrian lagerstätten deposits.

Anomalocaris was only known from its frontal appendages when it was first described in 1892, which were originally considered to be the body of a shrimp-like arthropod. Due to initially only being known from isolated body parts, Anomalocaris has a convoluted taxonomic history, being historically confused with the related radiodont genus Peytoia, with complete body specimens of Anomalocaris only being described in the late 20th century. It is the type genus of Anomalocarididae, a family which previously included all radiodonts but recently only Anomalocaris and a few closely related taxa.[3]

Discovery and identification


Frontal appendage of Anomalocaris canadensis (top) and mouthpiece of Peytoia nathorsti (bottom) from British Columbia. The latter was originally assigned to the former species.


From the start, Anomalocaris fossil was misidentified, followed by a series of misidentifications and taxonomic revisions.[7][8] As Stephen Jay Gould, who popularised the Cambrian explosion in his 1989 book Wonderful Life, appropriately described:

[The story of Anomalocaris is] a tale of humor, error, struggle, frustration, and more error, culminating in an extraordinary resolution that brought together bits and pieces of three "phyla" in a single reconstructed creature, the largest and fiercest of Cambrian organisms.[9]

Anomalocaris fossils were first collected in 1886[8] by Richard G. McConnell of the Geological Survey of Canada (GSC). Having been informed of rich fossils at the Stephen Formation in British Columbia, McConnell climbed Mount Stephen on 13 September 1886.[10][11] He found abundant trilobites, along with two unknown specimens.[12] In August 1891, Henri-Marc Ami, Assistant Palaeontologist at GSC, collected many trilobites and brachiopod fossils,[13] along with 48 more of the unknown specimens.[14] The fifty specimens were examined and described in 1892 by GSC paleontologist Joseph Frederick Whiteaves.[15][16] Whiteaves interpreted them as the abdomens of phyllocarid crustaceans, and gave the full scientific name Anomalocaris canadensis. He describes the crustacean characters:

Body or abdominal segments, which, in all the specimens collected, are abnormally flattened laterally, a little higher or deeper than long, broader above than below, the pair of ventral appendages proceeding from each, nearly equal in height or depth to the segment itself... The generic name Anomalocaris (from ανώμαλος, unlike,—καρίς, a shrimp, i.e., unlike other shrimps) [the species name referring to Canada] is suggested by the unusual shape of the uropods or ventral appendages of the body segments and the relative position of the caudal spine.[12]

In 1928, Danish paleontologist Kai Henriksen proposed that Tuzoia, a Burgess Shale arthropod which was known only from the carapace, represented the missing front half of Anomalocaris.[8] The artists Elie Cheverlange and Charles R. Knight followed this interpretation in their depictions of Anomalocaris.[8]

Not known to scientists at the time, the body parts of relatives of Anomalocaris had already been described but not recognized as such. The first fossilized mouth of such a kind of animal was discovered by Charles Doolittle Walcott, who mistook it for a jellyfish and placed it in the genus Peytoia. Walcott also discovered a frontal appendage but failed to realize the similarities to Whiteaves' discovery and instead identified it as feeding appendage or tail of the coexisted Sidneyia.[17] In the same publication in which he named Peytoia, Walcott named Laggania, a taxon that he interpreted as a holothurian.

In 1966, the Geological Survey of Canada began a comprehensive revision of the Burgess Shale fossil record, led by Cambridge University paleontologist Harry B. Whittington.[8] In the process of this revision, Whittington and his students Simon Conway Morris and Derek Briggs would discover the true nature of Anomalocaris and its relatives, but not without contributing to the history of misinterpretations first.[17] In 1978, Conway Morris recognized that the mouthparts of Laggania were identical to Peytoia, but concluded that Laggania was a composite fossil made up of Peytoia and the sponge Corralio undulata.[18] In 1979, Briggs recognized that the fossils of Anomalocaris were appendages, not abdomens, and proposed that they were the walking legs of a giant arthropod, and that the feeding appendage Walcott had assigned to Sidneyia was the feeding appendage of similar animal, referred to as "appendage F".[15] Later, while clearing what he thought was an unrelated specimen, Harry B. Whittington removed a layer of covering stone to discover the unequivocally connected frontal appendage identical to Anomalocaris and mouthpart similar to Peytoia.[17][19] Whittington linked the two species, but it took several more years for researchers to realize that the continuously juxtaposed Peytoia, Laggania and frontal appendages (Anomalocaris and "appendage F") actually represented a single group of enormous creatures.[7] The two genera have now been placed into the order Radiodonta[8] and are commonly known as radiodonts or anomalocaridids. Since Peytoia was named first, it is the accepted correct name for the entire animal. However, the original frontal appendage was from a larger species distinct from Peytoia and "Laggania" and therefore retains the name Anomalocaris.[20]

In 2011, compound eyes of Anomalocaris were recovered from a paleontological dig at Emu Bay Shale on Kangaroo Island, Australia, proving that Anomalocaris was indeed an arthropod as had been suspected. The find also indicated that advanced arthropod eyes had evolved very early, before the evolution of jointed legs or hardened exoskeletons.[21] This specimen was later identified as that of a new species of Anomalocaris, A. daleyae.[2]

Numerous species have been previously referred to Anomalocaris, but subsequent analyses have doubted this generic assignment,[22][23][24] and reclassified them within different genera. In 2021, "A." saron[25] and "A." magnabasis[26] were reassigned to the new genus Houcaris in the family Tamisiocarididae,[27] but subsequent analysis suggests that H. saron is a member of the family Amplectobeluidae instead and that H? magnabasis (recovered as a sister taxon of Amplectobeluidae) does not form a monophyletic clade with other species of Houcaris.[28] In the same year, "A." pennsylvanica was reassigned to the genus Lenisicaris.[3] In 2022, specimen ELRC 20001 that was treated as an unnamed species of Anomalocaris or whole-body specimen of A. saron got a new genus, Innovatiocaris.[29] In 2023, "A". kunmingensis was reassigned to the new genus Guanshancaris in the family Amplectobeluidae.[30] Multiple phylogenetic analyses also suggested that "A". briggsi (tamisiocaridid) was not a species of Anomalocaris either,[4][31][32][33] and it was reassigned to the genus Echidnacaris in the family Tamisiocarididae in 2023.[